When we think about getting the most out of irrigation water, efficiency is often the word that comes to mind. Yes, we do need to apply water in an efficient manner, but there are different ways to relate efficiency to irrigation.

Water and Pumping Plant Efficiencies

First, consider efficiency as it relates to water application. The goal when irrigating is to provide water to a growing plant, but if any of the water runs off of the field or moves below the plant's root system, application efficiency decreases because the plant can't use the runoff water. This is the primary reason that application efficiency of furrow irrigation systems is less than that of sprinkler systems. So whether we use furrow or sprinkler, keeping the water on the field and limiting deep percolation helps to improve efficiency.

Another kind of efficiency is pumping plant efficiency. The pumping plant is composed of both the energy source and the pump itself. Electric motors require very little adjustment, but diesel or combustible energy units will run more efficiently and use less fuel with proper maintenance and routine tune-ups. Equally important is providing periodic maintenance and adjustments to the pump itself, so it can deliver the optimum amount of water for a given quantity of fuel. The pump is completely out of sight, but wear and abrasion of sand in water can slowly reduce pump efficiency. A well maintained pumping plant will deliver the designed flow rate and pressure, thus improving system application efficiency.

A worn pump allows water to escape through the seal formed between the impeller and the pump bowls. When the seal gets worn, water must be pumped several times before being delivered to the surface. UNL has conducted tests over the years and has found that, on average, pumps are using 30% more energy than should be needed. Given today's energy costs, poor pumping plant efficiency can be costly (see Figure 1).

Because of drought, irrigators have had to manage water efficiently. Although the drought has eased the past couple of years, we know that droughts occur in cycles and we will see dry periods again. It is interesting to observe what has happened to crop production during the last drought cycle.

Drought Doesn't Always Reduce Yields

We would expect that drought years would bring lower crop yield. But according to statistics from USDA, that is not necessarily the case. Listed are average corn, dry bean, and sugarbeet yields in Nebraska over the past 20 years.

It is interesting that, during the drought years of 2002-2007, crop yield was actually greater than during the previous 10 years when rainfall was more plentiful and irrigation water more than adequate to meet crop demands. Certainly there have been other improvements in crop production practices, but it is important to note that a shortage of water did not automatically mean lower crop yields.

Potential Impact

Improving irrigation-related efficiencies, and ultimately getting the most out of irrigation water, means giving the plant the water that it needs without over-irrigating. Over-irrigating increases pumping costs, depletes water resources, and can decrease crop yield.